CN209900463U - Wearable supersound physiotherapy equipment of intelligence - Google Patents

Abstract

The utility model discloses a wearable supersound physiotherapy equipment of intelligence, it includes host computer and treatment head subassembly. The host comprises a power supply module, a display module, a main control module and a power output module; the treatment head assembly comprises a treatment head and a coupling patch, wherein the treatment head comprises a driving circuit board, a temperature sensor and an ultrasonic transducer, and the coupling patch comprises a solid coupling agent, a coupling agent filling box and an adhesive dressing. One end of the treatment head is connected with the host machine through a flexible cable, and the other end of the treatment head is detachably connected with the coupling patch. The output sound intensity of the physiotherapy instrument is 0.1W/cm²～0.5W/cm²Ultra low powerThe sound energy guarantees to use for a long time and can not improve the risk in the aspect of the safety, adopts the lithium cell power supply to make the complete machine structure similar with the cell-phone size, and convenience of customers puts into the pocket or wears to use on one's body. The physiotherapy instrument is mainly used for the physical therapy of various tendon diseases, muscle injuries or arthralgia.

Description

Wearable supersound physiotherapy equipment of intelligence

Technical Field

The utility model relates to a low-power supersound physiotherapy equipment, especially a wearable supersound physiotherapy equipment of intelligence.

Background

When ultrasonic waves act on human tissues, certain biological effects are generated, and the biological effects are utilized to treat the human tissues, namely, the ultrasonic physiotherapy. The main biological effects are mechanical effect, thermal effect and physical and chemical effect.

Mechanical effect: the ultrasonic vibration can cause the substance in the tissue cells to move, and the cell pulp flows, the cells are vibrated, rotated and rubbed due to the fine massage of the ultrasonic, so that the cell massage effect is generated, which is also called as 'internal massage', and is the unique characteristic of ultrasonic therapy. The 'internal massage' of ultrasonic wave can change the permeability of cell membrane, stimulate the diffusion process of cell wall, promote metabolism, accelerate blood and lymph circulation, improve the ischemia and anoxia state of cell, improve tissue nutrition, change protein synthesis rate, improve regeneration function, etc.

Warming effect: human tissue has a relatively large absorption capacity for ultrasonic energy, so that during the propagation of ultrasonic waves in human tissue, the energy is continuously absorbed by the tissue and becomes heat, with the result that the temperature of the tissue itself rises. I.e. internal heat generation. The ultrasonic warm effect can increase blood circulation, accelerate metabolism, improve local tissue nutrition and enhance enzyme activity. Generally, the thermal effects of ultrasound are significant in bone and connective tissue, with minimal fat and blood.

Physical and chemical effects: both the mechanical and thermal effects of ultrasound can trigger several physicochemical changes.

At present, most of the physiotherapy instruments at home and abroad have the volume similar to that of a telephone set, and a mains supply power supply mode is adopted, so that the application range of the physiotherapy instruments is basically limited only in places with mains supply power supply sockets, such as a hospital rehabilitation department or a family. On the other hand, most of the physiotherapy instruments have ultrasonic output sound intensity of 1W/cm²～3W/cm²Under the action of the sound intensity, the general one-time physical therapy time needs to be controlled within 15 minutes, and the physical therapy head needs to be moved during physical therapy to avoid burning. On the other hand, the existing physiotherapy instrument only has some built-in parameters, the whole equipment is operated by a single machine, and related data cannot be obtainedSo as to adjust the physical therapy parameters better at the later stage. In addition, the current physiotherapy instruments cannot accurately monitor the temperature of the treatment area, so that burns are easily caused; the therapeutic head of the ultrasonic therapeutic apparatus cannot be tightly attached to the therapeutic area, and the therapeutic effect is poor.

SUMMERY OF THE UTILITY MODEL

For solving not enough and satisfying multiple treatment demand among the current product, the utility model provides a wearable supersound physiotherapy equipment of intelligence specifically as follows:

the utility model provides a wearable supersound physiotherapy equipment of intelligence which characterized in that, includes host computer and treatment head subassembly: the host comprises a host body, a power supply module, a display module, a main control module and a power output module, wherein the power supply module supplies electric energy to the display module, the main control module and the power output module; the display module and the power output module are controlled by the main control module; the main machine body is provided with a power output port, and the power output module is connected to the power output port; the treatment head component comprises a treatment head and a coupling patch, wherein the treatment head comprises a driving circuit board, an ultrasonic transducer and a temperature sensor; the driving circuit board controls the ultrasonic transducer, the ultrasonic transducer comprises a radiation surface for outputting ultrasonic energy, an opening is formed in the center of the radiation surface, the temperature sensor penetrates out of the opening, and the temperature sensor is connected with the ultrasonic transducer in a sealing mode; one end of the treatment head close to the radiation surface is connected with the coupling paste; the wearable supersound physiotherapy equipment of intelligence still includes output cable, power output port with the treatment head subassembly passes through output cable connects.

The other scheme of the utility model is that on the basis of the scheme, the coupling paste comprises a solid coupling agent, a coupling agent filling box and a viscous dressing; one end of the treatment head close to the radiation surface is connected with the couplant filling box, the solid couplant is placed in the couplant filling box, and the viscous dressing is connected with the couplant filling box to fix the treatment head at a treatment part and ensure that the solid couplant is in full contact with the treatment part.

The utility model has the other scheme that on the basis of the schemes, the power module comprises a lithium battery, a charging circuit, an electric quantity monitoring circuit, a booster circuit and a charging interface positioned on the main machine body; the main control module comprises a control unit, a Bluetooth module, a key positioned on the main machine body, an anti-counterfeiting socket for identifying an anti-counterfeiting card and the anti-counterfeiting card; the Bluetooth module is connected with a mobile phone or a tablet personal computer through Bluetooth, and the keys comprise an on-off key, an increase key, a decrease key and a lock key; the display module comprises a liquid crystal display screen and an indicator light which are positioned on the main machine body.

The utility model discloses a another scheme is on the basis of above-mentioned several kinds of schemes, power output module includes boost circuit, MOS pipe and the MOS pipe drive circuit who corresponds, MOS pipe drive circuit with host system connects, power output module exports 5V ~ 12V's direct current voltage, host system can be through the direct current voltage duty cycle of control output and then control the average output of treatment head.

The other scheme of the utility model is that on the basis of the above schemes, the driving circuit board comprises a frequency generation chip, a high-frequency driving chip, a temperature detection circuit and an alarm prompt circuit; the power supply module provides electric energy for the frequency generation chip, the frequency generation chip generates a square wave signal and outputs the square wave signal to the high-frequency driving chip, and the high-frequency driving chip amplifies the square wave signal and outputs the amplified square wave signal to the ultrasonic transducer so as to drive the ultrasonic transducer to output ultrasonic energy; the temperature detection circuit is connected with the temperature sensor, the temperature detection circuit sends detected temperature data of the radiation surface to the host, the temperature detection circuit is connected with the alarm prompting circuit, when the temperature of the radiation surface detected by the temperature sensor exceeds a set range, the alarm prompting circuit sends alarm prompting information, and the ultrasonic transducer stops outputting ultrasonic energy; when the temperature of the radiation surface detected by the temperature sensor is lower than a set range, the ultrasonic transducer starts to output ultrasonic energy.

The other proposal of the utility model is that on the basis of the above proposals, the working frequency of the ultrasonic transducer is 1MHz to 3MHz, and the output sound intensity is 0.1W/cm²～0.5W/cm²。

The other scheme of the utility model is that on the basis of the above schemes, the inside of the couplant filling box is of a thin cylindrical structure, the solid-state couplant is placed inside the couplant filling box, one end of the couplant filling box, which is connected with the viscous dressing, is provided with a bottom opening, and the bottom opening is provided with an inner edge for dragging the solid-state couplant; the end of the coupling agent filling box, which is connected with the treatment head, is provided with a top opening; the bottom opening is smaller than the top opening; the adhesive dressing has an adhesive dressing opening.

The utility model discloses a another scheme is on the basis of above-mentioned several kinds of schemes, solid-state couplant is the disc, solid-state couplant has ductility.

The utility model discloses a another scheme is on the basis of above-mentioned several kinds of schemes, solid-state couplant with the stickness dressing is connected through glue or ultrasonic bonding.

The utility model discloses a another scheme is on the basis of above-mentioned several kinds of schemes, cell-phone or panel computer can through the bluetooth with the wearable supersound physiotherapy equipment of intelligence is connected, and the application on cell-phone or the panel computer can set up the parameter of supersound physiotherapy.

The utility model has the advantages that:

adopt the lithium cell power supply, the volume is less, conveniently wears this wearable supersound physiotherapy of intelligence on one's body or puts in the pocket, satisfies various scene treatment demands, including hospital, family, company, even journey in-process etc..

The center of the ultrasonic transducer is provided with the opening, the temperature sensor penetrates out of the opening, the position of the temperature sensor is closer to a target treatment area, the temperature of the treatment area can be detected more accurately, and the excessive-temperature burn is prevented.

The low-power treatment head can be configured with different working frequencies to meet the requirements of different treatment depths, and can be attached to the treatment part for a long time due to low output power, so that the burn is not easy to cause.

The solid couplant can reduce the uncomfortable feeling of a therapist taking off the coupling paste after using, and only a small amount of paper towels are needed to wipe off water.

The adhesive dressing can better fix the treatment head at the treatment part, ensures that the solid couplant is in close contact with the treatment part, and achieves better treatment effect.

The equipment is connected with the mobile phone or the tablet personal computer by Bluetooth, and the treatment parameters are set by a program on the mobile phone or the tablet personal computer, so that the treatment parameters can be conveniently set and customized; in addition, a record of settings and treatment parameters may be saved, and further, treatment parameters may be analyzed and optimized.

Drawings

FIG. 1 is a block diagram of the overall structure

FIG. 2 is a front view of the main unit of the ultrasonic physiotherapy instrument

FIG. 3 is a right side view of the ultrasonic physiotherapy instrument main unit

FIG. 4 is a bottom view of the ultrasonic physiotherapy instrument main unit

FIG. 5 is a left side view of the main unit of the ultrasonic physiotherapy instrument

Figure 6 is a front view of the ultrasonic physiotherapy apparatus

FIG. 7 is a block diagram of a power output module

FIG. 8 is a block diagram of a driving circuit of the driving circuit board

FIG. 9 is a perspective view of a coupling post

FIG. 10 is an exploded view of the coupling patch

FIG. 11 is a top view of the treatment head

FIG. 12 is a cross-sectional view of treatment head A-A of FIG. 11

FIG. 13 is an APP pre-start interface diagram of a mobile phone or tablet computer

FIG. 14 is an APP startup interface diagram of a mobile phone or a tablet computer

Description of reference numerals:

101-on/off key

102-addition bond

103-reduction bond

104-locking key

105-liquid crystal display screen

106-indicator light

107-anti-fake socket

108-charging interface

109-output cable

201-adhesive dressing

202-couplant filling box

203-solid coupling agent

301-drive circuit board

302-electric wire

303-temperature sensor

304-radiation surface

305 ultrasonic transducer

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

An intelligent wearable ultrasonic physiotherapy instrument, as shown in fig. 1, comprises a host and a treatment head assembly: the host comprises a host body, a power supply module, a display module, a main control module and a power output module, wherein the power supply module supplies electric energy to the display module, the main control module and the power output module; the display module and the power output module are controlled by the main control module; the main body is provided with a power output port, and the power output module is connected to the power output port.

Further, the treatment head assembly comprises a treatment head and a coupling patch, as shown in fig. 12, the treatment head comprises a driving circuit board 301, an ultrasonic transducer 305, and a temperature sensor 303, the temperature sensor 303 is connected with the driving circuit board 301 through a wire 302, the ultrasonic transducer 305 comprises a radiation surface 304 for outputting ultrasonic energy, an opening is formed in the center of the radiation surface 304, the temperature sensor 303 penetrates out of the opening, and the temperature sensor 303 is connected with the ultrasonic transducer 305 in a sealing manner; one end of the treatment head close to the radiation surface 304 is connected with the coupling paste; the wearable supersound physiotherapy equipment of intelligence still includes output cable 109, power output port with the treatment head subassembly passes through output cable 109 is connected.

Preferably, the output cable 109 is a flexible cable.

As shown in fig. 9 and 10, the coupling patch comprises a solid couplant 203, a couplant filling box 202 and an adhesive dressing 201; one end of the treatment head close to the radiation surface 304 is connected with the couplant filling box 202, the solid couplant 203 is placed in the couplant filling box 202, and the adhesive dressing 203 is connected with the couplant filling box 202 to fix the treatment head on a treatment part and ensure that the solid couplant 203 is in full contact with the treatment part.

Further, the power module of this embodiment includes a lithium battery, a charging circuit, a power monitoring circuit, a boost circuit, and a charging interface 108 located on the main body. Preferably, the lithium battery is a 2000mAh lithium battery.

Further, the display module of this embodiment includes a liquid crystal display 105 and an indicator lamp 106 on the main body, and the function of the indicator lamp includes indicating the charging state. Preferably, the liquid crystal display screen is a 2.23-inch OLED liquid crystal display screen.

Furthermore, the main control module of the embodiment comprises a control unit, a Bluetooth module, a key positioned on the body of the host, an anti-counterfeiting socket for identifying the anti-counterfeiting card and the anti-counterfeiting card; the Bluetooth module is connected with a mobile phone or a tablet computer through Bluetooth, and preferably, the Bluetooth module adopts a CC2640 Bluetooth module chip of TI company, which comprises an ARM Cortex-M3 microprocessor and a 2.4GHzRF transceiver and conforms to Bluetooth Low Energy (BLE)4.2 and 5 specifications.

Furthermore, the output voltage of the lithium battery of the embodiment provides electric energy for the display module, the main control module and the power output module through the low-dropout linear regulator.

Further, the main control module in this embodiment is connected to the charging circuit of the power module, and monitors the charging status at any time and displays the charging status through the indicator light 106.

Further, the main control module of the embodiment is connected with the OLED liquid crystal display through the 4-wire SPI.

As shown in fig. 2-5, this embodiment includes an on-off key 101, an increase key 102, a decrease key 103, a lock key 104, a liquid crystal display 105, an indicator 106, a counterfeit deterrent socket 107, a charging interface 108 and an output cable 109, which are located on the main body of the host.

In this embodiment, further, the on-off key 101 is pressed for three seconds, so that the host can be turned on and off. The lcd 105 can display the battery level, bluetooth connection status, treatment setting time, and other prompting information. The indicator light 106 indicates the charging status, and when the host is charged, the display is yellow-green, and when the host is full, the display is green. The increase key 102 can control the increase of the set treatment time, and the decrease key 103 can control the decrease of the treatment time. The default treatment time is zero after the start-up, and once the treatment time is set to be larger than zero, the treatment time is output. After the locking key 104 is opened, other keys cannot be operated, and the phenomenon that treatment is influenced by mistakenly touching the keys in the using process is avoided.

Further, the interface 108 that charges adopts the USB Type-C interface, can charge to this equipment with general cell-phone charger or treasured that charges.

Further, as shown in fig. 6, the output cable 109 includes a host cable and a therapy head cable, and the host cable and the therapy head cable are connected through a socket.

Further, the counterfeit prevention socket 107 is used for inserting a counterfeit prevention card in a coupling sticker package. The anti-counterfeiting card internally stores information of the usable time of the device, and the usable time is related to the number of the coupling stickers in the coupling sticker package. Each coupling sticker is set to have a fixed maximum usable time, for example, four hours, the greater the number of coupling stickers in the coupling sticker package, the longer the usable time of the device after the anti-counterfeiting card is inserted. When the anti-counterfeiting card is used, the host computer reads the time information stored in the anti-counterfeiting card firstly, and updates and stores the available time into the anti-counterfeiting card after each use is finished. When the available time is zero, the host computer has no output, the ultrasonic energy corresponding to the therapeutic head can not be output, and the anti-counterfeiting card is updated on the liquid crystal screen 105. The anti-counterfeiting card is stored in the package of each coupling sticker, so that the service time of each coupling sticker can be ensured, and the use of other imitations is reduced as much as possible.

As shown in fig. 7, the power output module of this embodiment includes a boost circuit, an MOS transistor and a corresponding MOS transistor driving circuit, the MOS transistor driving circuit is connected to the main control module, a control signal of the MOS transistor driving circuit is provided by the main control module, and may be a switching signal or a PWM signal, and the control signal is used to control the on/off and duty ratio of the MOS transistor.

Further, the main control module of this embodiment outputs the PWM signal to the power output module, the power output module transmits the PWM signal to the driving circuit board 301 of the therapy head through the power output port and the output cable 109, and controls the energy output of the ultrasound transducer 305 of the therapy head, and the dc voltage output by the power output module is 5V to 12V.

Further, the boost module of the embodiment boosts the voltage of 3.7V of the lithium battery to 5V and outputs the voltage through the MOS transistor. The power output module outputs 5V direct current voltage, and the main control module controls the average output power of the treatment head by controlling the duty ratio of the output direct current voltage.

As shown in fig. 8, the driving circuit board of the present embodiment includes a frequency generating chip, a high-frequency driving chip, a temperature detecting circuit, and an alarm prompting circuit; the power module provides electric energy for the frequency generation chip, the frequency generation chip generates a square wave signal and outputs the square wave signal to the high-frequency driving chip, and the high-frequency driving chip amplifies the square wave signal and outputs the amplified square wave signal to the ultrasonic transducer 305, so as to drive the ultrasonic transducer 305 to output ultrasonic energy; the temperature detection circuit is connected with the temperature sensor 303, the temperature sensor 303 sends the detected temperature data of the radiation surface 304 to the host through the temperature detection circuit, the temperature detection circuit is connected with the alarm prompting circuit, when the temperature of the radiation surface 304 detected by the temperature sensor 303 exceeds a set value, the alarm prompting circuit sends out alarm prompting information, and the ultrasonic transducer stops outputting ultrasonic energy.

Further, the frequency generation chip adopts LTC6908, and the LTC6908 can output a frequency between 50kHz and 10MHz through a resistor configuration, and this embodiment is configured to output two frequencies of 1MHz and 3 MHz. The signal output by LTC6908 has weak driving capability, which is not enough to drive the ultrasonic transducer, and the driving capability is increased by the high frequency driving chip, and then the ultrasonic transducer 305 is driven.

Furthermore, the vibrating motor is arranged in the treatment head, and when the temperature is over-high, the vibrating motor can vibrate for a short time to remind a user.

Furthermore, in the embodiment, the working frequency of the ultrasonic transducer is 1 MHz-3 MHz, and the output sound intensity is 0.1W/cm²～0.5W/cm²。

Further, in the present embodiment, the temperature sensor 303 and the ultrasonic transducer 305 are hermetically connected by 704 silicone rubber.

Preferably, in the present embodiment, the temperature sensor 303 employs an NTC thermistor, and the NTC thermistor is connected to the driving circuit board 301 through a wire 302. The temperature detection circuit on the driving circuit board 301 measures the resistance value of the NTC thermistor using a wheatstone bridge, and transmits the output differential voltage to an ADC (analog-to-digital converter) of the host computer through the transmission cable 109, and then obtains a corresponding temperature value according to the calculated resistance value and displays it on the liquid crystal display 105. Meanwhile, the differential signal output by the Wheatstone bridge is converted into a single-ended signal and passes through a hysteresis comparator, and the output of the hysteresis comparator is connected to an alarm prompting circuit and frequency output control, so that when the alarm temperature exceeds a set range, an alarm signal is given and the ultrasonic energy output of the ultrasonic transducer 305 is turned off; when the monitored temperature value is lower than the alarm temperature setting range, the ultrasonic energy output of the ultrasonic transducer 305 is started.

Furthermore, the temperature range of the front end can be controlled by adjusting the return difference and the threshold value of the hysteresis comparator, and the ultrasonic energy output can be prevented from being switched on and off frequently at the single-point temperature.

Further, the alarm temperature is set to be in a range of 35 to 45 ℃, preferably 37 to 43 ℃.

Further, in the present embodiment, the adhesive dressing 201 and the couplant filling box 202 are connected by glue or ultrasonic welding.

Further, the inside of the couplant filling box 202 is of a thin cylindrical structure, a bottom opening is formed at one end, connected with the adhesive dressing 201, of the couplant filling box 202, and the bottom opening is provided with an inner edge used for dragging the solid couplant 203; the end of the coupling agent filling box 202 connected with the treatment head is provided with a top opening; the bottom opening is smaller than the top opening, so that the solid couplant 203 cannot fall out when being placed in the adhesive dressing 201, and an adhesive dressing opening is formed in the adhesive dressing 201. Preferably, the top opening is circular with a diameter of 30mm, the bottom opening is circular with a diameter of 25mm, and the adhesive dressing opening is circular with a diameter of 32.3 mm. The top opening, the bottom opening, and the adhesive dressing opening are concentric circles.

Preferably, the adhesive dressing has a tear-off opening.

Preferably, the adhesive dressing is a spunlace nonwoven or a PP nonwoven.

Preferably, the size of the solid couplant 203 is comparable to the internal size of the couplant filling box 202 or the size of the solid couplant 203 is slightly smaller than the internal size of the couplant filling box 202.

Furthermore, the outer edge of the couplant filling box 202 is provided with a locking mechanism, the treatment head is provided with a locking mechanism matched with the treatment head, and the treatment head is connected with the couplant filling box 202 through the locking mechanism. Preferably, the locking mechanism is a screw mechanism.

Further, the solid couplant 203 is in a disc shape, and the solid couplant 203 has ductility. The adhesive dressing 201 tightly connects the treatment head with the treatment part (skin), so that no gap exists among the ultrasonic transducer radiation surface 304, the solid coupling agent 203 and the treatment area such as skin on the treatment head, and the attenuation of ultrasonic energy is reduced as much as possible.

Further, in this embodiment, a user mobile phone or a tablet computer may be connected to the intelligent wearable ultrasound physiotherapy apparatus through bluetooth, and an application program on the mobile phone or the tablet computer may set parameters of the ultrasound physiotherapy apparatus. As shown in fig. 13 and 14, before starting and after starting the intelligent wearable ultrasound physiotherapy apparatus, the display interface displays a "start" button to control the output of ultrasound energy; after starting, the interface displays pause and cancel, controls pause outputting ultrasonic energy and cancel the output timing respectively, and ends the ultrasonic treatment; on the application program operation interface, the top shows the remaining time, the part displays the selected predefined treatment part or the self-defined treatment part, the part can be selected and set in the parameters, the temperature shows the temperature signal collected by the temperature sensor 303 of the radiation surface 304 of the treatment head, and the temperature signal is calculated by the host computer and transmitted to the mobile phone or the tablet computer. The parameter tag can select a predefined part and a self-defined part, the predefined part comprises predefined output power, pulse period, duty ratio and duration, the parameters cannot be set, and the self-defined part can set the parameters. The data label includes statistics of treatment data, including treatment time and corresponding parameters, total treatment time, and the like. The personal tag contains personal information, predefined parameter updates, host information, a coupling purchase, etc.

Above only the utility model discloses an preferred embodiment, the utility model discloses a scope of protection not only limits in the embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and alterations can be made without departing from the principles of the present invention.

Claims (10)

1. The utility model provides a wearable supersound physiotherapy equipment of intelligence which characterized in that, includes host computer and treatment head subassembly:

the host comprises a host body, a power supply module, a display module, a main control module and a power output module, wherein the power supply module supplies electric energy to the display module, the main control module and the power output module; the display module and the power output module are controlled by the main control module; the main machine body is provided with a power output port, and the power output module is connected to the power output port;

the treatment head component comprises a treatment head and a coupling patch, wherein the treatment head comprises a driving circuit board, an ultrasonic transducer and a temperature sensor; the driving circuit board controls the ultrasonic transducer, the ultrasonic transducer comprises a radiation surface for outputting ultrasonic energy, an opening is formed in the center of the radiation surface, the temperature sensor penetrates out of the opening, and the temperature sensor is connected with the ultrasonic transducer in a sealing mode; one end of the treatment head close to the radiation surface is connected with the coupling paste;

the wearable supersound physiotherapy equipment of intelligence still includes output cable, power output port with the treatment head subassembly passes through output cable connects.

2. The intelligent wearable ultrasound physiotherapy apparatus of claim 1, wherein the coupling patch comprises a solid couplant, a couplant filling box, and an adhesive dressing; one end of the treatment head close to the radiation surface is connected with the couplant filling box, the solid couplant is placed in the couplant filling box, and the viscous dressing is connected with the couplant filling box to fix the treatment head at a treatment part and ensure that the solid couplant is in full contact with the treatment part.

3. The intelligent wearable ultrasound physiotherapy apparatus of claim 2, wherein: the power module comprises a lithium battery, a charging circuit, an electric quantity monitoring circuit, a booster circuit and a charging interface positioned on the main machine body; the main control module comprises a control unit, a Bluetooth module, a key positioned on the main machine body, an anti-counterfeiting socket for identifying an anti-counterfeiting card and the anti-counterfeiting card; the Bluetooth module is connected with a mobile phone or a tablet personal computer through Bluetooth, and the keys comprise an on-off key, an increase key, a decrease key and a lock key; the display module comprises a liquid crystal display screen and an indicator light which are positioned on the main machine body.

4. The intelligent wearable ultrasound physiotherapy apparatus of claim 2, wherein: the power output module comprises a booster circuit, an MOS tube and a corresponding MOS tube driving circuit, the MOS tube driving circuit is connected with the main control module, the power output module outputs 5-12V direct-current voltage, and the main control module can control the average output power of the treatment head by controlling the duty ratio of the output direct-current voltage.

5. The intelligent wearable ultrasound physiotherapy apparatus of claim 2, wherein: the driving circuit board comprises a frequency generation chip, a high-frequency driving chip, a temperature detection circuit and an alarm prompt circuit; the power supply module provides electric energy for the frequency generation chip, the frequency generation chip generates a square wave signal and outputs the square wave signal to the high-frequency driving chip, and the high-frequency driving chip amplifies the square wave signal and outputs the amplified square wave signal to the ultrasonic transducer so as to drive the ultrasonic transducer to output ultrasonic energy; the temperature detection circuit is connected with the temperature sensor, the temperature detection circuit sends detected temperature data of the radiation surface to the host, the temperature detection circuit is connected with the alarm prompting circuit, when the temperature of the radiation surface detected by the temperature sensor exceeds a set range, the alarm prompting circuit sends alarm prompting information, and the ultrasonic transducer stops outputting ultrasonic energy; when the temperature of the radiation surface detected by the temperature sensor is lower than a set range, the ultrasonic transducer starts to output ultrasonic energy.

6. The intelligent wearable ultrasound physiotherapy apparatus of claim 2, wherein: the working frequency of the ultrasonic transducer is 1 MHz-3 MHz, and the output sound intensity is 0.1W/cm²～0.5W/cm²。

7. The intelligent wearable ultrasound physiotherapy apparatus of claim 2, wherein: the coupling agent filling box is internally of a thin cylindrical structure, the solid coupling agent is placed inside the coupling agent filling box, a bottom opening is formed in one end, connected with the adhesive dressing, of the coupling agent filling box, and the bottom opening is provided with an inner edge used for dragging the solid coupling agent; the end of the coupling agent filling box, which is connected with the treatment head, is provided with a top opening; the bottom opening is smaller than the top opening; the adhesive dressing has an adhesive dressing opening.

8. The intelligent wearable ultrasound physiotherapy apparatus of claim 2, wherein: the solid couplant is in a disc shape and has ductility.

9. The intelligent wearable ultrasound physiotherapy apparatus of claim 2, wherein: the solid couplant and the adhesive dressing are connected through glue or ultrasonic welding.

10. The intelligent wearable ultrasound physiotherapy apparatus of claim 2, wherein: the mobile phone or the tablet personal computer can be connected with the intelligent wearable ultrasonic physiotherapy instrument through Bluetooth, and the application program on the mobile phone or the tablet personal computer can set parameters of ultrasonic physiotherapy.

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